Non-holonomic Constraints and Lie brackets. Definition: A non-holonomic constraint is a limitation on the allowable velocities of an object So what does.

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Presentation on theme: "Non-holonomic Constraints and Lie brackets. Definition: A non-holonomic constraint is a limitation on the allowable velocities of an object So what does."— Presentation transcript:

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Non-holonomic Constraints and Lie brackets

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Definition: A non-holonomic constraint is a limitation on the allowable velocities of an object So what does that mean? Your robot can move in some directions (forwards and backwards), but not others (side to side). This is most easily seen in wheeled robots. The robot can instantly move forward and back, but can not move to the right or left without the wheels slipping. To go to the right, the robot must first turn, and then drive forward

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What about holonimc systems? A person walking is an example of a holonomic system- you can instantly step to the right or left, as well as going forwards or backwards. In other words, your velocity in the plane is not restricted. An Omni-wheel is a holonomic system- it can roll forwards and sideways.

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How do we represent the constraint mathematically? We write a constraint equation For a differential drive, this is: y x  We can also write the constraint in matrix form, with q the position vector and q dot the velocity, we can write a constraint vector w 1 (q) What does this equation tell us? The direction we can’t move in So if  then the velocity in y = 0 if  then the velocity in x = 0

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Lie Brackets A Lie Bracket takes two n dimensional vectors and returns a new n-vector

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Method for analyzing non-holonomic motion Determine your constraints (w’s) Convert the constraints into locally allowable motions, (w’s  g’s) Must find allowable inputs g 1 and g 2 such that (g 1 ^ w 1 ) and (g 2 ^ w 2 ) Apply Lie Bracket to your g’s to determine all possible motions If after you apply the Lie Bracket you find that you have n linearly independent columns, then you can control your robot in all n variables.